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|
// Copyright (C) 2012-2013 Internet Systems Consortium, Inc. ("ISC")
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice appear in all copies.
//
// THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH
// REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
// AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT,
// INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
// LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE
// OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
// PERFORMANCE OF THIS SOFTWARE.
#include <config.h>
#include <asiolink/io_address.h>
#include <dhcp/duid.h>
#include <dhcp/hwaddr.h>
#include <dhcpsrv/dhcpsrv_log.h>
#include <dhcpsrv/mysql_lease_mgr.h>
#include <boost/static_assert.hpp>
#include <mysqld_error.h>
#include <iostream>
#include <iomanip>
#include <sstream>
#include <string>
#include <time.h>
using namespace isc;
using namespace isc::dhcp;
using namespace std;
/// @file
///
/// This file holds the implementation of the Lease Manager using MySQL. The
/// implementation uses MySQL's C API, as it comes as standard with the MySQL
/// client libraries.
///
/// In general, each of the database access methods corresponds to one SQL
/// statement. To avoid the overhead of parsing a statement every time it is
/// used, when the database is opened "prepared statements" are created -
/// essentially doing the SQL parsing up front. Every time a method is used
/// to access data, the corresponding prepared statement is referenced. Each
/// prepared statement contains a set of placeholders for data, each
/// placeholder being for:
///
/// - data being added to the database (as in adding or updating a lease)
/// - data being retrieved from the database (as in getting lease information)
/// - selection criteria used to determine which records to update/retrieve.
///
/// All such data is associated with the prepared statment using an array of
/// MYSQL_BIND structures. Each element in the array corresponds to one
/// parameter in the prepared statement - the first element in the array is
/// associated with the first parameter, the second element with the second
/// parameter etc.
///
/// Within this file, the setting up of the MYSQL_BIND arrays for data being
/// passed to and retrieved from the database is handled in the
/// isc::dhcp::MySqlLease4Exchange and isc::dhcp::MySqlLease6Exchange classes.
/// The classes also hold intermediate variables required for exchanging some
/// of the data.
///
/// With these exchange objects in place, many of the methods follow similar
/// logic:
/// - Set up the MYSQL_BIND array for data being transferred to/from the
/// database. For data being transferred to the database, some of the
/// data is extracted from the lease to intermediate variables, whilst
/// in other cases the MYSQL_BIND arrays point to the data in the lease.
/// - Set up the MYSQL_BIND array for the data selection parameters.
/// - Bind these arrays to the prepared statement.
/// - Execute the statement.
/// - If there is output, copy the data from the bound variables to the output
/// lease object.
namespace {
///@{
/// @brief Maximum size of database fields
///
/// The following constants define buffer sizes for variable length database
/// fields. The values should be greater than or equal to the length set in
/// the schema definition.
///
/// The exception is the length of any VARCHAR fields: buffers for these should
/// be set greater than or equal to the length of the field plus 1: this allows
/// for the insertion of a trailing null whatever data is returned.
/// @brief Maximum size of an IPv6 address represented as a text string.
///
/// This is 32 hexadecimal characters written in 8 groups of four, plus seven
/// colon separators.
const size_t ADDRESS6_TEXT_MAX_LEN = 39;
/// @brief MySQL True/False constants
///
/// Declare typed values so as to avoid problems of data conversion. These
/// are local to the file but are given the prefix MLM (MySql Lease Manager) to
/// avoid any likely conflicts with variables in header files named TRUE or
/// FALSE.
const my_bool MLM_FALSE = 0; ///< False value
const my_bool MLM_TRUE = 1; ///< True value
/// @brief Maximum length of the hostname stored in DNS.
///
/// This length is restricted by the length of the domain-name carried
/// in the Client FQDN %Option (see RFC4702 and RFC4704).
const size_t HOSTNAME_MAX_LEN = 255;
///@}
/// @brief MySQL Selection Statements
///
/// Each statement is associated with an index, which is used to reference the
/// associated prepared statement.
struct TaggedStatement {
MySqlLeaseMgr::StatementIndex index;
const char* text;
};
TaggedStatement tagged_statements[] = {
{MySqlLeaseMgr::DELETE_LEASE4,
"DELETE FROM lease4 WHERE address = ?"},
{MySqlLeaseMgr::DELETE_LEASE6,
"DELETE FROM lease6 WHERE address = ?"},
{MySqlLeaseMgr::GET_LEASE4_ADDR,
"SELECT address, hwaddr, client_id, "
"valid_lifetime, expire, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname "
"FROM lease4 "
"WHERE address = ?"},
{MySqlLeaseMgr::GET_LEASE4_CLIENTID,
"SELECT address, hwaddr, client_id, "
"valid_lifetime, expire, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname "
"FROM lease4 "
"WHERE client_id = ?"},
{MySqlLeaseMgr::GET_LEASE4_CLIENTID_SUBID,
"SELECT address, hwaddr, client_id, "
"valid_lifetime, expire, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname "
"FROM lease4 "
"WHERE client_id = ? AND subnet_id = ?"},
{MySqlLeaseMgr::GET_LEASE4_HWADDR,
"SELECT address, hwaddr, client_id, "
"valid_lifetime, expire, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname "
"FROM lease4 "
"WHERE hwaddr = ?"},
{MySqlLeaseMgr::GET_LEASE4_HWADDR_SUBID,
"SELECT address, hwaddr, client_id, "
"valid_lifetime, expire, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname "
"FROM lease4 "
"WHERE hwaddr = ? AND subnet_id = ?"},
{MySqlLeaseMgr::GET_LEASE6_ADDR,
"SELECT address, duid, valid_lifetime, "
"expire, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, "
"fqdn_fwd, fqdn_rev, hostname "
"FROM lease6 "
"WHERE address = ? AND lease_type = ?"},
{MySqlLeaseMgr::GET_LEASE6_DUID_IAID,
"SELECT address, duid, valid_lifetime, "
"expire, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, "
"fqdn_fwd, fqdn_rev, hostname "
"FROM lease6 "
"WHERE duid = ? AND iaid = ? AND lease_type = ?"},
{MySqlLeaseMgr::GET_LEASE6_DUID_IAID_SUBID,
"SELECT address, duid, valid_lifetime, "
"expire, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, "
"fqdn_fwd, fqdn_rev, hostname "
"FROM lease6 "
"WHERE duid = ? AND iaid = ? AND subnet_id = ? "
"AND lease_type = ?"},
{MySqlLeaseMgr::GET_VERSION,
"SELECT version, minor FROM schema_version"},
{MySqlLeaseMgr::INSERT_LEASE4,
"INSERT INTO lease4(address, hwaddr, client_id, "
"valid_lifetime, expire, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname) "
"VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?)"},
{MySqlLeaseMgr::INSERT_LEASE6,
"INSERT INTO lease6(address, duid, valid_lifetime, "
"expire, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, "
"fqdn_fwd, fqdn_rev, hostname) "
"VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)"},
{MySqlLeaseMgr::UPDATE_LEASE4,
"UPDATE lease4 SET address = ?, hwaddr = ?, "
"client_id = ?, valid_lifetime = ?, expire = ?, "
"subnet_id = ?, fqdn_fwd = ?, fqdn_rev = ?, "
"hostname = ? "
"WHERE address = ?"},
{MySqlLeaseMgr::UPDATE_LEASE6,
"UPDATE lease6 SET address = ?, duid = ?, "
"valid_lifetime = ?, expire = ?, subnet_id = ?, "
"pref_lifetime = ?, lease_type = ?, iaid = ?, "
"prefix_len = ?, fqdn_fwd = ?, fqdn_rev = ?, "
"hostname = ? "
"WHERE address = ?"},
// End of list sentinel
{MySqlLeaseMgr::NUM_STATEMENTS, NULL}
};
}; // Anonymous namespace
namespace isc {
namespace dhcp {
/// @brief Common MySQL and Lease Data Methods
///
/// The MySqlLease4Exchange and MySqlLease6Exchange classes provide the
/// functionaility to set up binding information between variables in the
/// program and data extracted from the database. This class is the common
/// base to both of them, containing some common methods.
class MySqlLeaseExchange {
public:
/// @brief Set error indicators
///
/// Sets the error indicator for each of the MYSQL_BIND elements. It points
/// the "error" field within an element of the input array to the
/// corresponding element of the passed error array.
///
/// @param bind Array of BIND elements
/// @param error Array of error elements. If there is an error in getting
/// data associated with one of the "bind" elements, the
/// corresponding element in the error array is set to MLM_TRUE.
/// @param count Size of each of the arrays.
void setErrorIndicators(MYSQL_BIND* bind, my_bool* error, size_t count) {
for (size_t i = 0; i < count; ++i) {
error[i] = MLM_FALSE;
bind[i].error = reinterpret_cast<char*>(&error[i]);
}
}
/// @brief Return columns in error
///
/// If an error is returned from a fetch (in particular, a truncated
/// status), this method can be called to get the names of the fields in
/// error. It returns a string comprising the names of the fields
/// separated by commas. In the case of there being no error indicators
/// set, it returns the string "(None)".
///
/// @param error Array of error elements. An element is set to MLM_TRUE
/// if the corresponding column in the database is the source of
/// the error.
/// @param names Array of column names, the same size as the error array.
/// @param count Size of each of the arrays.
std::string getColumnsInError(my_bool* error, std::string* names,
size_t count) {
std::string result = "";
// Accumulate list of column names
for (size_t i = 0; i < count; ++i) {
if (error[i] == MLM_TRUE) {
if (!result.empty()) {
result += ", ";
}
result += names[i];
}
}
if (result.empty()) {
result = "(None)";
}
return (result);
}
};
/// @brief Exchange MySQL and Lease4 Data
///
/// On any MySQL operation, arrays of MYSQL_BIND structures must be built to
/// describe the parameters in the prepared statements. Where information is
/// inserted or retrieved - INSERT, UPDATE, SELECT - a large amount of that
/// structure is identical. This class handles the creation of that array.
///
/// Owing to the MySQL API, the process requires some intermediate variables
/// to hold things like data length etc. This object holds those variables.
///
/// @note There are no unit tests for this class. It is tested indirectly
/// in all MySqlLeaseMgr::xxx4() calls where it is used.
class MySqlLease4Exchange : public MySqlLeaseExchange {
/// @brief Set number of database columns for this lease structure
static const size_t LEASE_COLUMNS = 9;
public:
/// @brief Constructor
///
/// The initialization of the variables here is only to satisfy cppcheck -
/// all variables are initialized/set in the methods before they are used.
MySqlLease4Exchange() : addr4_(0), hwaddr_length_(0), client_id_length_(0),
fqdn_fwd_(false), fqdn_rev_(false), hostname_length_(0) {
memset(hwaddr_buffer_, 0, sizeof(hwaddr_buffer_));
memset(client_id_buffer_, 0, sizeof(client_id_buffer_));
memset(hostname_buffer_, 0, sizeof(hostname_buffer_));
std::fill(&error_[0], &error_[LEASE_COLUMNS], MLM_FALSE);
// Set the column names (for error messages)
columns_[0] = "address";
columns_[1] = "hwaddr";
columns_[2] = "client_id";
columns_[3] = "valid_lifetime";
columns_[4] = "expire";
columns_[5] = "subnet_id";
columns_[6] = "fqdn_fwd";
columns_[7] = "fqdn_rev";
columns_[8] = "hostname";
BOOST_STATIC_ASSERT(8 < LEASE_COLUMNS);
}
/// @brief Create MYSQL_BIND objects for Lease4 Pointer
///
/// Fills in the MYSQL_BIND array for sending data in the Lease4 object to
/// the database.
///
/// @param lease Lease object to be added to the database. None of the
/// fields in the lease are modified - the lease data is only read.
///
/// @return Vector of MySQL BIND objects representing the data to be added.
std::vector<MYSQL_BIND> createBindForSend(const Lease4Ptr& lease) {
// Store lease object to ensure it remains valid.
lease_ = lease;
// Initialize prior to constructing the array of MYSQL_BIND structures.
// It sets all fields, including is_null, to zero, so we need to set
// is_null only if it should be true. This gives up minor performance
// benefit while being safe approach. For improved readability, the
// code that explicitly sets is_null is there, but is commented out.
memset(bind_, 0, sizeof(bind_));
// Set up the structures for the various components of the lease4
// structure.
// Address: uint32_t
// The address in the Lease structure is an IOAddress object. Convert
// this to an integer for storage.
addr4_ = static_cast<uint32_t>(lease_->addr_);
bind_[0].buffer_type = MYSQL_TYPE_LONG;
bind_[0].buffer = reinterpret_cast<char*>(&addr4_);
bind_[0].is_unsigned = MLM_TRUE;
// bind_[0].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// hwaddr: varbinary(128)
// For speed, we avoid copying the data into temporary storage and
// instead extract it from the lease structure directly.
hwaddr_length_ = lease_->hwaddr_.size();
bind_[1].buffer_type = MYSQL_TYPE_BLOB;
bind_[1].buffer = reinterpret_cast<char*>(&(lease_->hwaddr_[0]));
bind_[1].buffer_length = hwaddr_length_;
bind_[1].length = &hwaddr_length_;
// bind_[1].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// client_id: varbinary(128)
if (lease_->client_id_) {
client_id_ = lease_->client_id_->getClientId();
client_id_length_ = client_id_.size();
bind_[2].buffer_type = MYSQL_TYPE_BLOB;
bind_[2].buffer = reinterpret_cast<char*>(&client_id_[0]);
bind_[2].buffer_length = client_id_length_;
bind_[2].length = &client_id_length_;
// bind_[2].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
} else {
bind_[2].buffer_type = MYSQL_TYPE_NULL;
// According to http://dev.mysql.com/doc/refman/5.5/en/
// c-api-prepared-statement-data-structures.html, the other
// fields doesn't matter if type is set to MYSQL_TYPE_NULL,
// but let's set them to some sane values in case earlier versions
// didn't have that assumption.
client_id_null_ = MLM_TRUE;
bind_[2].buffer = NULL;
bind_[2].is_null = &client_id_null_;
}
// valid lifetime: unsigned int
bind_[3].buffer_type = MYSQL_TYPE_LONG;
bind_[3].buffer = reinterpret_cast<char*>(&lease_->valid_lft_);
bind_[3].is_unsigned = MLM_TRUE;
// bind_[3].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// expire: timestamp
// The lease structure holds the client last transmission time (cltt_)
// For convenience for external tools, this is converted to lease
// expiry time (expire). The relationship is given by:
//
// expire = cltt_ + valid_lft_
//
// @todo Handle overflows - a large enough valid_lft_ could cause
// an overflow on a 32-bit system.
MySqlLeaseMgr::convertToDatabaseTime(lease_->cltt_, lease_->valid_lft_,
expire_);
bind_[4].buffer_type = MYSQL_TYPE_TIMESTAMP;
bind_[4].buffer = reinterpret_cast<char*>(&expire_);
bind_[4].buffer_length = sizeof(expire_);
// bind_[4].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// subnet_id: unsigned int
// Can use lease_->subnet_id_ directly as it is of type uint32_t.
bind_[5].buffer_type = MYSQL_TYPE_LONG;
bind_[5].buffer = reinterpret_cast<char*>(&lease_->subnet_id_);
bind_[5].is_unsigned = MLM_TRUE;
// bind_[5].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// fqdn_fwd: boolean
bind_[6].buffer_type = MYSQL_TYPE_TINY;
bind_[6].buffer = reinterpret_cast<char*>(&lease_->fqdn_fwd_);
bind_[6].is_unsigned = MLM_TRUE;
// bind_[6].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// fqdn_rev: boolean
bind_[7].buffer_type = MYSQL_TYPE_TINY;
bind_[7].buffer = reinterpret_cast<char*>(&lease_->fqdn_rev_);
bind_[7].is_unsigned = MLM_TRUE;
// bind_[7].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// hostname: varchar(255)
bind_[8].buffer_type = MYSQL_TYPE_VARCHAR;
bind_[8].buffer = const_cast<char*>(lease_->hostname_.c_str());
bind_[8].buffer_length = lease_->hostname_.length();
// bind_[8].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// Add the error flags
setErrorIndicators(bind_, error_, LEASE_COLUMNS);
// .. and check that we have the numbers correct at compile time.
BOOST_STATIC_ASSERT(8 < LEASE_COLUMNS);
// Add the data to the vector. Note the end element is one after the
// end of the array.
return (std::vector<MYSQL_BIND>(&bind_[0], &bind_[LEASE_COLUMNS]));
}
/// @brief Create BIND array to receive data
///
/// Creates a MYSQL_BIND array to receive Lease4 data from the database.
/// After data is successfully received, getLeaseData() can be used to copy
/// it to a Lease6 object.
///
std::vector<MYSQL_BIND> createBindForReceive() {
// Initialize MYSQL_BIND array.
// It sets all fields, including is_null, to zero, so we need to set
// is_null only if it should be true. This gives up minor performance
// benefit while being safe approach. For improved readability, the
// code that explicitly sets is_null is there, but is commented out.
memset(bind_, 0, sizeof(bind_));
// address: uint32_t
bind_[0].buffer_type = MYSQL_TYPE_LONG;
bind_[0].buffer = reinterpret_cast<char*>(&addr4_);
bind_[0].is_unsigned = MLM_TRUE;
// bind_[0].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// hwaddr: varbinary(20)
hwaddr_length_ = sizeof(hwaddr_buffer_);
bind_[1].buffer_type = MYSQL_TYPE_BLOB;
bind_[1].buffer = reinterpret_cast<char*>(hwaddr_buffer_);
bind_[1].buffer_length = hwaddr_length_;
bind_[1].length = &hwaddr_length_;
// bind_[1].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// client_id: varbinary(128)
client_id_length_ = sizeof(client_id_buffer_);
bind_[2].buffer_type = MYSQL_TYPE_BLOB;
bind_[2].buffer = reinterpret_cast<char*>(client_id_buffer_);
bind_[2].buffer_length = client_id_length_;
bind_[2].length = &client_id_length_;
bind_[2].is_null = &client_id_null_;
// bind_[2].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// lease_time: unsigned int
bind_[3].buffer_type = MYSQL_TYPE_LONG;
bind_[3].buffer = reinterpret_cast<char*>(&valid_lifetime_);
bind_[3].is_unsigned = MLM_TRUE;
// bind_[3].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// expire: timestamp
bind_[4].buffer_type = MYSQL_TYPE_TIMESTAMP;
bind_[4].buffer = reinterpret_cast<char*>(&expire_);
bind_[4].buffer_length = sizeof(expire_);
// bind_[4].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// subnet_id: unsigned int
bind_[5].buffer_type = MYSQL_TYPE_LONG;
bind_[5].buffer = reinterpret_cast<char*>(&subnet_id_);
bind_[5].is_unsigned = MLM_TRUE;
// bind_[5].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// fqdn_fwd: boolean
bind_[6].buffer_type = MYSQL_TYPE_TINY;
bind_[6].buffer = reinterpret_cast<char*>(&fqdn_fwd_);
bind_[6].is_unsigned = MLM_TRUE;
// bind_[6].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// fqdn_rev: boolean
bind_[7].buffer_type = MYSQL_TYPE_TINY;
bind_[7].buffer = reinterpret_cast<char*>(&fqdn_rev_);
bind_[7].is_unsigned = MLM_TRUE;
// bind_[7].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// hostname: varchar(255)
hostname_length_ = sizeof(hostname_buffer_);
bind_[8].buffer_type = MYSQL_TYPE_STRING;
bind_[8].buffer = reinterpret_cast<char*>(hostname_buffer_);
bind_[8].buffer_length = hostname_length_;
bind_[8].length = &hostname_length_;
// bind_[8].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// Add the error flags
setErrorIndicators(bind_, error_, LEASE_COLUMNS);
// .. and check that we have the numbers correct at compile time.
BOOST_STATIC_ASSERT(8 < LEASE_COLUMNS);
// Add the data to the vector. Note the end element is one after the
// end of the array.
return(std::vector<MYSQL_BIND>(&bind_[0], &bind_[LEASE_COLUMNS]));
}
/// @brief Copy Received Data into Lease6 Object
///
/// Called after the MYSQL_BIND array created by createBindForReceive()
/// has been used, this copies data from the internal member variables
/// into a Lease4 objec.
///
/// @return Lease4Ptr Pointer to a Lease6 object holding the relevant
/// data.
Lease4Ptr getLeaseData() {
// Convert times received from the database to times for the lease
// structure
time_t cltt = 0;
MySqlLeaseMgr::convertFromDatabaseTime(expire_, valid_lifetime_, cltt);
if (client_id_null_==MLM_TRUE) {
// There's no client-id, so we pass client-id_length_ set to 0
client_id_length_ = 0;
}
// Hostname is passed to Lease4 as a string object. We have to create
// it from the buffer holding hostname and the buffer length.
std::string hostname(hostname_buffer_,
hostname_buffer_ + hostname_length_);
// note that T1 and T2 are not stored
return (Lease4Ptr(new Lease4(addr4_, hwaddr_buffer_, hwaddr_length_,
client_id_buffer_, client_id_length_,
valid_lifetime_, 0, 0, cltt, subnet_id_,
fqdn_fwd_, fqdn_rev_, hostname)));
}
/// @brief Return columns in error
///
/// If an error is returned from a fetch (in particular, a truncated
/// status), this method can be called to get the names of the fields in
/// error. It returns a string comprising the names of the fields
/// separated by commas. In the case of there being no error indicators
/// set, it returns the string "(None)".
///
/// @return Comma-separated list of columns in error, or the string
/// "(None)".
std::string getErrorColumns() {
return (getColumnsInError(error_, columns_, LEASE_COLUMNS));
}
private:
// Note: All array lengths are equal to the corresponding variable in the
// schema.
// Note: Arrays are declared fixed length for speed of creation
uint32_t addr4_; ///< IPv4 address
MYSQL_BIND bind_[LEASE_COLUMNS]; ///< Bind array
std::string columns_[LEASE_COLUMNS];///< Column names
my_bool error_[LEASE_COLUMNS]; ///< Error array
std::vector<uint8_t> hwaddr_; ///< Hardware address
uint8_t hwaddr_buffer_[HWAddr::MAX_HWADDR_LEN];
///< Hardware address buffer
unsigned long hwaddr_length_; ///< Hardware address length
std::vector<uint8_t> client_id_; ///< Client identification
uint8_t client_id_buffer_[ClientId::MAX_CLIENT_ID_LEN];
///< Client ID buffer
unsigned long client_id_length_; ///< Client ID address length
my_bool client_id_null_; ///< Is Client ID null?
MYSQL_TIME expire_; ///< Lease expiry time
Lease4Ptr lease_; ///< Pointer to lease object
uint32_t subnet_id_; ///< Subnet identification
uint32_t valid_lifetime_; ///< Lease time
my_bool fqdn_fwd_; ///< Has forward DNS update been
///< performed
my_bool fqdn_rev_; ///< Has reverse DNS update been
///< performed
char hostname_buffer_[HOSTNAME_MAX_LEN];
///< Client hostname
unsigned long hostname_length_; ///< Client hostname length
};
/// @brief Exchange MySQL and Lease6 Data
///
/// On any MySQL operation, arrays of MYSQL_BIND structures must be built to
/// describe the parameters in the prepared statements. Where information is
/// inserted or retrieved - INSERT, UPDATE, SELECT - a large amount of that
/// structure is identical. This class handles the creation of that array.
///
/// Owing to the MySQL API, the process requires some intermediate variables
/// to hold things like data length etc. This object holds those variables.
///
/// @note There are no unit tests for this class. It is tested indirectly
/// in all MySqlLeaseMgr::xxx6() calls where it is used.
class MySqlLease6Exchange : public MySqlLeaseExchange {
/// @brief Set number of database columns for this lease structure
static const size_t LEASE_COLUMNS = 12;
public:
/// @brief Constructor
///
/// The initialization of the variables here is nonly to satisfy cppcheck -
/// all variables are initialized/set in the methods before they are used.
MySqlLease6Exchange() : addr6_length_(0), duid_length_(0),
fqdn_fwd_(false), fqdn_rev_(false),
hostname_length_(0) {
memset(addr6_buffer_, 0, sizeof(addr6_buffer_));
memset(duid_buffer_, 0, sizeof(duid_buffer_));
memset(hostname_buffer_, 0, sizeof(hostname_buffer_));
std::fill(&error_[0], &error_[LEASE_COLUMNS], MLM_FALSE);
// Set the column names (for error messages)
columns_[0] = "address";
columns_[1] = "duid";
columns_[2] = "valid_lifetime";
columns_[3] = "expire";
columns_[4] = "subnet_id";
columns_[5] = "pref_lifetime";
columns_[6] = "lease_type";
columns_[7] = "iaid";
columns_[8] = "prefix_len";
columns_[9] = "fqdn_fwd";
columns_[10] = "fqdn_rev";
columns_[11] = "hostname";
BOOST_STATIC_ASSERT(8 < LEASE_COLUMNS);
}
/// @brief Create MYSQL_BIND objects for Lease6 Pointer
///
/// Fills in the MYSQL_BIND array for sending data in the Lease4 object to
/// the database.
///
/// @param lease Lease object to be added to the database.
///
/// @return Vector of MySQL BIND objects representing the data to be added.
std::vector<MYSQL_BIND> createBindForSend(const Lease6Ptr& lease) {
// Store lease object to ensure it remains valid.
lease_ = lease;
// Ensure bind_ array clear for constructing the MYSQL_BIND structures
// for this lease.
// It sets all fields, including is_null, to zero, so we need to set
// is_null only if it should be true. This gives up minor performance
// benefit while being safe approach. For improved readability, the
// code that explicitly sets is_null is there, but is commented out.
memset(bind_, 0, sizeof(bind_));
// address: varchar(39)
addr6_ = lease_->addr_.toText();
addr6_length_ = addr6_.size();
// In the following statement, the string is being read. However, the
// MySQL C interface does not use "const", so the "buffer" element
// is declared as "char*" instead of "const char*". To resolve this,
// the "const" is discarded. (Note that the address of addr6_.c_str()
// is guaranteed to be valid until the next non-const operation on
// addr6_.)
//
// The const_cast could be avoided by copying the string to a writeable
// buffer and storing the address of that in the "buffer" element.
// However, this introduces a copy operation (with additional overhead)
// purely to get round the structures introduced by design of the
// MySQL interface (which uses the area pointed to by "buffer" as input
// when specifying query parameters and as output when retrieving data).
// For that reason, "const_cast" has been used.
bind_[0].buffer_type = MYSQL_TYPE_STRING;
bind_[0].buffer = const_cast<char*>(addr6_.c_str());
bind_[0].buffer_length = addr6_length_;
bind_[0].length = &addr6_length_;
// bind_[0].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// duid: varchar(128)
duid_ = lease_->duid_->getDuid();
duid_length_ = duid_.size();
bind_[1].buffer_type = MYSQL_TYPE_BLOB;
bind_[1].buffer = reinterpret_cast<char*>(&(duid_[0]));
bind_[1].buffer_length = duid_length_;
bind_[1].length = &duid_length_;
// bind_[1].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// valid lifetime: unsigned int
bind_[2].buffer_type = MYSQL_TYPE_LONG;
bind_[2].buffer = reinterpret_cast<char*>(&lease_->valid_lft_);
bind_[2].is_unsigned = MLM_TRUE;
// bind_[2].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// expire: timestamp
// The lease structure holds the client last transmission time (cltt_)
// For convenience for external tools, this is converted to lease
/// expiry time (expire). The relationship is given by:
//
// expire = cltt_ + valid_lft_
//
// @todo Handle overflows
MySqlLeaseMgr::convertToDatabaseTime(lease_->cltt_, lease_->valid_lft_,
expire_);
bind_[3].buffer_type = MYSQL_TYPE_TIMESTAMP;
bind_[3].buffer = reinterpret_cast<char*>(&expire_);
bind_[3].buffer_length = sizeof(expire_);
// bind_[3].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// subnet_id: unsigned int
// Can use lease_->subnet_id_ directly as it is of type uint32_t.
bind_[4].buffer_type = MYSQL_TYPE_LONG;
bind_[4].buffer = reinterpret_cast<char*>(&lease_->subnet_id_);
bind_[4].is_unsigned = MLM_TRUE;
// bind_[4].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// pref_lifetime: unsigned int
// Can use lease_->preferred_lft_ directly as it is of type uint32_t.
bind_[5].buffer_type = MYSQL_TYPE_LONG;
bind_[5].buffer = reinterpret_cast<char*>(&lease_->preferred_lft_);
bind_[5].is_unsigned = MLM_TRUE;
// bind_[5].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// lease_type: tinyint
// Must convert to uint8_t as lease_->type_ is a LeaseType variable.
lease_type_ = lease_->type_;
bind_[6].buffer_type = MYSQL_TYPE_TINY;
bind_[6].buffer = reinterpret_cast<char*>(&lease_type_);
bind_[6].is_unsigned = MLM_TRUE;
// bind_[6].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// iaid: unsigned int
// Can use lease_->iaid_ directly as it is of type uint32_t.
bind_[7].buffer_type = MYSQL_TYPE_LONG;
bind_[7].buffer = reinterpret_cast<char*>(&lease_->iaid_);
bind_[7].is_unsigned = MLM_TRUE;
// bind_[7].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// prefix_len: unsigned tinyint
// Can use lease_->prefixlen_ directly as it is uint32_t.
bind_[8].buffer_type = MYSQL_TYPE_TINY;
bind_[8].buffer = reinterpret_cast<char*>(&lease_->prefixlen_);
bind_[8].is_unsigned = MLM_TRUE;
// bind_[8].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// fqdn_fwd: boolean
bind_[9].buffer_type = MYSQL_TYPE_TINY;
bind_[9].buffer = reinterpret_cast<char*>(&lease_->fqdn_fwd_);
bind_[9].is_unsigned = MLM_TRUE;
// bind_[7].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// fqdn_rev: boolean
bind_[10].buffer_type = MYSQL_TYPE_TINY;
bind_[10].buffer = reinterpret_cast<char*>(&lease_->fqdn_rev_);
bind_[10].is_unsigned = MLM_TRUE;
// bind_[10].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// hostname: varchar(255)
bind_[11].buffer_type = MYSQL_TYPE_VARCHAR;
bind_[11].buffer = const_cast<char*>(lease_->hostname_.c_str());
bind_[11].buffer_length = lease_->hostname_.length();
// bind_[11].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// Add the error flags
setErrorIndicators(bind_, error_, LEASE_COLUMNS);
// .. and check that we have the numbers correct at compile time.
BOOST_STATIC_ASSERT(11 < LEASE_COLUMNS);
// Add the data to the vector. Note the end element is one after the
// end of the array.
return (std::vector<MYSQL_BIND>(&bind_[0], &bind_[LEASE_COLUMNS]));
}
/// @brief Create BIND array to receive data
///
/// Creates a MYSQL_BIND array to receive Lease6 data from the database.
/// After data is successfully received, getLeaseData() is used to copy
/// it to a Lease6 object.
///
/// @return Vector of MySQL BIND objects passed to the MySQL data retrieval
/// functions.
std::vector<MYSQL_BIND> createBindForReceive() {
// Initialize MYSQL_BIND array.
// It sets all fields, including is_null, to zero, so we need to set
// is_null only if it should be true. This gives up minor performance
// benefit while being safe approach. For improved readability, the
// code that explicitly sets is_null is there, but is commented out.
memset(bind_, 0, sizeof(bind_));
// address: varchar(39)
// A Lease6_ address has a maximum of 39 characters. The array is
// one byte longer than this to guarantee that we can always null
// terminate it whatever is returned.
addr6_length_ = sizeof(addr6_buffer_) - 1;
bind_[0].buffer_type = MYSQL_TYPE_STRING;
bind_[0].buffer = addr6_buffer_;
bind_[0].buffer_length = addr6_length_;
bind_[0].length = &addr6_length_;
// bind_[0].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// client_id: varbinary(128)
duid_length_ = sizeof(duid_buffer_);
bind_[1].buffer_type = MYSQL_TYPE_BLOB;
bind_[1].buffer = reinterpret_cast<char*>(duid_buffer_);
bind_[1].buffer_length = duid_length_;
bind_[1].length = &duid_length_;
// bind_[1].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// lease_time: unsigned int
bind_[2].buffer_type = MYSQL_TYPE_LONG;
bind_[2].buffer = reinterpret_cast<char*>(&valid_lifetime_);
bind_[2].is_unsigned = MLM_TRUE;
// bind_[2].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// expire: timestamp
bind_[3].buffer_type = MYSQL_TYPE_TIMESTAMP;
bind_[3].buffer = reinterpret_cast<char*>(&expire_);
bind_[3].buffer_length = sizeof(expire_);
// bind_[3].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// subnet_id: unsigned int
bind_[4].buffer_type = MYSQL_TYPE_LONG;
bind_[4].buffer = reinterpret_cast<char*>(&subnet_id_);
bind_[4].is_unsigned = MLM_TRUE;
// bind_[4].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// pref_lifetime: unsigned int
bind_[5].buffer_type = MYSQL_TYPE_LONG;
bind_[5].buffer = reinterpret_cast<char*>(&pref_lifetime_);
bind_[5].is_unsigned = MLM_TRUE;
// bind_[5].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// lease_type: tinyint
bind_[6].buffer_type = MYSQL_TYPE_TINY;
bind_[6].buffer = reinterpret_cast<char*>(&lease_type_);
bind_[6].is_unsigned = MLM_TRUE;
// bind_[6].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// iaid: unsigned int
bind_[7].buffer_type = MYSQL_TYPE_LONG;
bind_[7].buffer = reinterpret_cast<char*>(&iaid_);
bind_[7].is_unsigned = MLM_TRUE;
// bind_[7].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// prefix_len: unsigned tinyint
bind_[8].buffer_type = MYSQL_TYPE_TINY;
bind_[8].buffer = reinterpret_cast<char*>(&prefixlen_);
bind_[8].is_unsigned = MLM_TRUE;
// bind_[8].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// fqdn_fwd: boolean
bind_[9].buffer_type = MYSQL_TYPE_TINY;
bind_[9].buffer = reinterpret_cast<char*>(&fqdn_fwd_);
bind_[9].is_unsigned = MLM_TRUE;
// bind_[9].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// fqdn_rev: boolean
bind_[10].buffer_type = MYSQL_TYPE_TINY;
bind_[10].buffer = reinterpret_cast<char*>(&fqdn_rev_);
bind_[10].is_unsigned = MLM_TRUE;
// bind_[10].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// hostname: varchar(255)
hostname_length_ = sizeof(hostname_buffer_);
bind_[11].buffer_type = MYSQL_TYPE_STRING;
bind_[11].buffer = reinterpret_cast<char*>(hostname_buffer_);
bind_[11].buffer_length = hostname_length_;
bind_[11].length = &hostname_length_;
// bind_[11].is_null = &MLM_FALSE; // commented out for performance
// reasons, see memset() above
// Add the error flags
setErrorIndicators(bind_, error_, LEASE_COLUMNS);
// .. and check that we have the numbers correct at compile time.
BOOST_STATIC_ASSERT(11 < LEASE_COLUMNS);
// Add the data to the vector. Note the end element is one after the
// end of the array.
return(std::vector<MYSQL_BIND>(&bind_[0], &bind_[LEASE_COLUMNS]));
}
/// @brief Copy Received Data into Lease6 Object
///
/// Called after the MYSQL_BIND array created by createBindForReceive()
/// has been used, this copies data from the internal member variables
/// into a Lease6 object.
///
/// @return Lease6Ptr Pointer to a Lease6 object holding the relevant
/// data.
///
/// @throw isc::BadValue Unable to convert Lease Type value in database
Lease6Ptr getLeaseData() {
// The address buffer is declared larger than the buffer size passed
// to the access function so that we can always append a null byte.
// Create the IOAddress object corresponding to the received data.
addr6_buffer_[addr6_length_] = '\0';
std::string address = addr6_buffer_;
isc::asiolink::IOAddress addr(address);
// Set the lease type in a variable of the appropriate data type, which
// has been initialized with an arbitrary (but valid) value.
Lease::Type type = Lease::TYPE_NA;
switch (lease_type_) {
case Lease::TYPE_NA:
type = Lease::TYPE_NA;
break;
case Lease::TYPE_TA:
type = Lease::TYPE_TA;
break;
case Lease::TYPE_PD:
type = Lease::TYPE_PD;
break;
default:
isc_throw(BadValue, "invalid lease type returned (" <<
static_cast<int>(lease_type_) << ") for lease with "
<< "address " << address << ". Only 0, 1, or 2 are "
<< "allowed.");
}
// Set up DUID,
DuidPtr duid_ptr(new DUID(duid_buffer_, duid_length_));
// Hostname is passed to Lease6 as a string object, so we have to
// create it from the hostname buffer and length.
std::string hostname(hostname_buffer_,
hostname_buffer_ + hostname_length_);
// Create the lease and set the cltt (after converting from the
// expire time retrieved from the database).
Lease6Ptr result(new Lease6(type, addr, duid_ptr, iaid_,
pref_lifetime_, valid_lifetime_, 0, 0,
subnet_id_, fqdn_fwd_, fqdn_rev_,
hostname, prefixlen_));
time_t cltt = 0;
MySqlLeaseMgr::convertFromDatabaseTime(expire_, valid_lifetime_, cltt);
result->cltt_ = cltt;
return (result);
}
/// @brief Return columns in error
///
/// If an error is returned from a fetch (in particular, a truncated
/// status), this method can be called to get the names of the fields in
/// error. It returns a string comprising the names of the fields
/// separated by commas. In the case of there being no error indicators
/// set, it returns the string "(None)".
///
/// @return Comma-separated list of columns in error, or the string
/// "(None)".
std::string getErrorColumns() {
return (getColumnsInError(error_, columns_, LEASE_COLUMNS));
}
private:
// Note: All array lengths are equal to the corresponding variable in the
// schema.
// Note: arrays are declared fixed length for speed of creation
std::string addr6_; ///< String form of address
char addr6_buffer_[ADDRESS6_TEXT_MAX_LEN + 1]; ///< Character
///< array form of V6 address
unsigned long addr6_length_; ///< Length of the address
MYSQL_BIND bind_[LEASE_COLUMNS]; ///< Bind array
std::string columns_[LEASE_COLUMNS];///< Column names
std::vector<uint8_t> duid_; ///< Client identification
uint8_t duid_buffer_[DUID::MAX_DUID_LEN]; ///< Buffer form of DUID
unsigned long duid_length_; ///< Length of the DUID
my_bool error_[LEASE_COLUMNS]; ///< Error indicators
MYSQL_TIME expire_; ///< Lease expiry time
uint32_t iaid_; ///< Identity association ID
Lease6Ptr lease_; ///< Pointer to lease object
uint8_t lease_type_; ///< Lease type
uint8_t prefixlen_; ///< Prefix length
uint32_t pref_lifetime_; ///< Preferred lifetime
uint32_t subnet_id_; ///< Subnet identification
uint32_t valid_lifetime_; ///< Lease time
my_bool fqdn_fwd_; ///< Has forward DNS update been
///< performed
my_bool fqdn_rev_; ///< Has reverse DNS update been
///< performed
char hostname_buffer_[HOSTNAME_MAX_LEN];
///< Client hostname
unsigned long hostname_length_; ///< Client hostname length
};
/// @brief Fetch and Release MySQL Results
///
/// When a MySQL statement is expected, to fetch the results the function
/// mysql_stmt_fetch() must be called. As well as getting data, this
/// allocates internal state. Subsequent calls to mysql_stmt_fetch can be
/// made, but when all the data is retrieved, mysql_stmt_free_result must be
/// called to free up the resources allocated.
///
/// Created prior to the first fetch, this class's destructor calls
/// mysql_stmt_free_result, so eliminating the need for an explicit release
/// in the method calling mysql_stmt_free_result. In this way, it guarantees
/// that the resources are released even if the MySqlLeaseMgr method concerned
/// exits via an exception.
class MySqlFreeResult {
public:
/// @brief Constructor
///
/// Store the pointer to the statement for which data is being fetched.
///
/// Note that according to the MySQL documentation, mysql_stmt_free_result
/// only releases resources if a cursor has been allocated for the
/// statement. This implies that it is a no-op if none have been. Either
/// way, any error from mysql_stmt_free_result is ignored. (Generating
/// an exception is not much help, as it will only confuse things if the
/// method calling mysql_stmt_fetch is exiting via an exception.)
MySqlFreeResult(MYSQL_STMT* statement) : statement_(statement)
{}
/// @brief Destructor
///
/// Frees up fetch context if a fetch has been successfully executed.
~MySqlFreeResult() {
(void) mysql_stmt_free_result(statement_);
}
private:
MYSQL_STMT* statement_; ///< Statement for which results are freed
};
// MySqlLeaseMgr Constructor and Destructor
MySqlLeaseMgr::MySqlLeaseMgr(const LeaseMgr::ParameterMap& parameters)
: LeaseMgr(parameters) {
// Open the database.
openDatabase();
// Enable autocommit. To avoid a flush to disk on every commit, the global
// parameter innodb_flush_log_at_trx_commit should be set to 2. This will
// cause the changes to be written to the log, but flushed to disk in the
// background every second. Setting the parameter to that value will speed
// up the system, but at the risk of losing data if the system crashes.
my_bool result = mysql_autocommit(mysql_, 1);
if (result != 0) {
isc_throw(DbOperationError, mysql_error(mysql_));
}
// Prepare all statements likely to be used.
prepareStatements();
// Create the exchange objects for use in exchanging data between the
// program and the database.
exchange4_.reset(new MySqlLease4Exchange());
exchange6_.reset(new MySqlLease6Exchange());
}
MySqlLeaseMgr::~MySqlLeaseMgr() {
// Free up the prepared statements, ignoring errors. (What would we do
// about them? We're destroying this object and are not really concerned
// with errors on a database connection that is about to go away.)
for (int i = 0; i < statements_.size(); ++i) {
if (statements_[i] != NULL) {
(void) mysql_stmt_close(statements_[i]);
statements_[i] = NULL;
}
}
// There is no need to close the database in this destructor: it is
// closed in the destructor of the mysql_ member variable.
}
// Time conversion methods.
//
// Note that the MySQL TIMESTAMP data type (used for "expire") converts data
// from the current timezone to UTC for storage, and from UTC to the current
// timezone for retrieval.
//
// This causes no problems providing that:
// a) cltt is given in local time
// b) We let the system take care of timezone conversion when converting
// from a time read from the database into a local time.
void
MySqlLeaseMgr::convertToDatabaseTime(time_t cltt, uint32_t valid_lifetime,
MYSQL_TIME& expire) {
// Calculate expiry time.
// @TODO: handle overflows
time_t expire_time = cltt + valid_lifetime;
// Convert to broken-out time
struct tm expire_tm;
(void) localtime_r(&expire_time, &expire_tm);
// Place in output expire structure.
expire.year = expire_tm.tm_year + 1900;
expire.month = expire_tm.tm_mon + 1; // Note different base
expire.day = expire_tm.tm_mday;
expire.hour = expire_tm.tm_hour;
expire.minute = expire_tm.tm_min;
expire.second = expire_tm.tm_sec;
expire.second_part = 0; // No fractional seconds
expire.neg = my_bool(0); // Not negative
}
void
MySqlLeaseMgr::convertFromDatabaseTime(const MYSQL_TIME& expire,
uint32_t valid_lifetime, time_t& cltt) {
// Copy across fields from MYSQL_TIME structure.
struct tm expire_tm;
memset(&expire_tm, 0, sizeof(expire_tm));
expire_tm.tm_year = expire.year - 1900;
expire_tm.tm_mon = expire.month - 1;
expire_tm.tm_mday = expire.day;
expire_tm.tm_hour = expire.hour;
expire_tm.tm_min = expire.minute;
expire_tm.tm_sec = expire.second;
expire_tm.tm_isdst = -1; // Let the system work out about DST
// Convert to local time
cltt = mktime(&expire_tm) - valid_lifetime;
}
// Open the database using the parameters passed to the constructor.
void
MySqlLeaseMgr::openDatabase() {
// Set up the values of the parameters
const char* host = "localhost";
string shost;
try {
shost = getParameter("host");
host = shost.c_str();
} catch (...) {
// No host. Fine, we'll use "localhost"
}
const char* user = NULL;
string suser;
try {
suser = getParameter("user");
user = suser.c_str();
} catch (...) {
// No user. Fine, we'll use NULL
}
const char* password = NULL;
string spassword;
try {
spassword = getParameter("password");
password = spassword.c_str();
} catch (...) {
// No password. Fine, we'll use NULL
}
const char* name = NULL;
string sname;
try {
sname = getParameter("name");
name = sname.c_str();
} catch (...) {
// No database name. Throw a "NoName" exception
isc_throw(NoDatabaseName, "must specified a name for the database");
}
// Set options for the connection:
//
// Automatic reconnection: after a period of inactivity, the client will
// disconnect from the database. This option causes it to automatically
// reconnect when another operation is about to be done.
my_bool auto_reconnect = MLM_TRUE;
int result = mysql_options(mysql_, MYSQL_OPT_RECONNECT, &auto_reconnect);
if (result != 0) {
isc_throw(DbOpenError, "unable to set auto-reconnect option: " <<
mysql_error(mysql_));
}
// Set SQL mode options for the connection: SQL mode governs how what
// constitutes insertable data for a given column, and how to handle
// invalid data. We want to ensure we get the strictest behavior and
// to reject invalid data with an error.
const char *sql_mode = "SET SESSION sql_mode ='STRICT_ALL_TABLES'";
result = mysql_options(mysql_, MYSQL_INIT_COMMAND, sql_mode);
if (result != 0) {
isc_throw(DbOpenError, "unable to set SQL mode options: " <<
mysql_error(mysql_));
}
// Open the database.
//
// The option CLIENT_FOUND_ROWS is specified so that in an UPDATE,
// the affected rows are the number of rows found that match the
// WHERE clause of the SQL statement, not the rows changed. The reason
// here is that MySQL apparently does not update a row if data has not
// changed and so the "affected rows" (retrievable from MySQL) is zero.
// This makes it hard to distinguish whether the UPDATE changed no rows
// because no row matching the WHERE clause was found, or because a
// row was found but no data was altered.
MYSQL* status = mysql_real_connect(mysql_, host, user, password, name,
0, NULL, CLIENT_FOUND_ROWS);
if (status != mysql_) {
isc_throw(DbOpenError, mysql_error(mysql_));
}
}
// Prepared statement setup. The textual form of an SQL statement is stored
// in a vector of strings (text_statements_) and is used in the output of
// error messages. The SQL statement is also compiled into a "prepared
// statement" (stored in statements_), which avoids the overhead of compilation
// during use. As prepared statements have resources allocated to them, the
// class destructor explicitly destroys them.
void
MySqlLeaseMgr::prepareStatement(StatementIndex index, const char* text) {
// Validate that there is space for the statement in the statements array
// and that nothing has been placed there before.
if ((index >= statements_.size()) || (statements_[index] != NULL)) {
isc_throw(InvalidParameter, "invalid prepared statement index (" <<
static_cast<int>(index) << ") or indexed prepared " <<
"statement is not null");
}
// All OK, so prepare the statement
text_statements_[index] = std::string(text);
statements_[index] = mysql_stmt_init(mysql_);
if (statements_[index] == NULL) {
isc_throw(DbOperationError, "unable to allocate MySQL prepared "
"statement structure, reason: " << mysql_error(mysql_));
}
int status = mysql_stmt_prepare(statements_[index], text, strlen(text));
if (status != 0) {
isc_throw(DbOperationError, "unable to prepare MySQL statement <" <<
text << ">, reason: " << mysql_error(mysql_));
}
}
void
MySqlLeaseMgr::prepareStatements() {
// Allocate space for all statements
statements_.clear();
statements_.resize(NUM_STATEMENTS, NULL);
text_statements_.clear();
text_statements_.resize(NUM_STATEMENTS, std::string(""));
// Created the MySQL prepared statements for each DML statement.
for (int i = 0; tagged_statements[i].text != NULL; ++i) {
prepareStatement(tagged_statements[i].index,
tagged_statements[i].text);
}
}
// Add leases to the database. The two public methods accept a lease object
// (either V4 of V6), bind the contents to the appropriate prepared
// statement, then call common code to execute the statement.
bool
MySqlLeaseMgr::addLeaseCommon(StatementIndex stindex,
std::vector<MYSQL_BIND>& bind) {
// Bind the parameters to the statement
int status = mysql_stmt_bind_param(statements_[stindex], &bind[0]);
checkError(status, stindex, "unable to bind parameters");
// Execute the statement
status = mysql_stmt_execute(statements_[stindex]);
if (status != 0) {
// Failure: check for the special case of duplicate entry. If this is
// the case, we return false to indicate that the row was not added.
// Otherwise we throw an exception.
if (mysql_errno(mysql_) == ER_DUP_ENTRY) {
return (false);
}
checkError(status, stindex, "unable to execute");
}
// Insert succeeded
return (true);
}
bool
MySqlLeaseMgr::addLease(const Lease4Ptr& lease) {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_ADD_ADDR4).arg(lease->addr_.toText());
// Create the MYSQL_BIND array for the lease
std::vector<MYSQL_BIND> bind = exchange4_->createBindForSend(lease);
// ... and drop to common code.
return (addLeaseCommon(INSERT_LEASE4, bind));
}
bool
MySqlLeaseMgr::addLease(const Lease6Ptr& lease) {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_ADD_ADDR6).arg(lease->addr_.toText())
.arg(lease->type_);
// Create the MYSQL_BIND array for the lease
std::vector<MYSQL_BIND> bind = exchange6_->createBindForSend(lease);
// ... and drop to common code.
return (addLeaseCommon(INSERT_LEASE6, bind));
}
// Extraction of leases from the database.
//
// All getLease() methods ultimately call getLeaseCollection(). This
// binds the input parameters passed to it with the appropriate prepared
// statement and executes the statement. It then gets the results from the
// database. getlease() methods that expect a single result back call it
// with the "single" parameter set true: this causes an exception to be
// generated if multiple records can be retrieved from the result set. (Such
// an occurrence either indicates corruption in the database, or that an
// assumption that a query can only return a single record is incorrect.)
// Methods that require a collection of records have "single" set to the
// default value of false. The logic is the same for both Lease4 and Lease6
// objects, so the code is templated.
//
// Methods that require a collection of objects access this method through
// two interface methods (also called getLeaseCollection()). These are
// short enough as to be defined in the header file: all they do is to supply
// the appropriate MySqlLeaseXExchange object depending on the type of the
// LeaseCollection objects passed to them.
//
// Methods that require a single object to be returned access the method
// through two interface methods (called getLease()). As well as supplying
// the appropriate exchange object, they convert between lease collection
// holding zero or one leases into an appropriate Lease object.
template <typename Exchange, typename LeaseCollection>
void MySqlLeaseMgr::getLeaseCollection(StatementIndex stindex,
MYSQL_BIND* bind,
Exchange& exchange,
LeaseCollection& result,
bool single) const {
// Bind the selection parameters to the statement
int status = mysql_stmt_bind_param(statements_[stindex], bind);
checkError(status, stindex, "unable to bind WHERE clause parameter");
// Set up the MYSQL_BIND array for the data being returned and bind it to
// the statement.
std::vector<MYSQL_BIND> outbind = exchange->createBindForReceive();
status = mysql_stmt_bind_result(statements_[stindex], &outbind[0]);
checkError(status, stindex, "unable to bind SELECT clause parameters");
// Execute the statement
status = mysql_stmt_execute(statements_[stindex]);
checkError(status, stindex, "unable to execute");
// Ensure that all the lease information is retrieved in one go to avoid
// overhead of going back and forth between client and server.
status = mysql_stmt_store_result(statements_[stindex]);
checkError(status, stindex, "unable to set up for storing all results");
// Set up the fetch "release" object to release resources associated
// with the call to mysql_stmt_fetch when this method exits, then
// retrieve the data.
MySqlFreeResult fetch_release(statements_[stindex]);
int count = 0;
while ((status = mysql_stmt_fetch(statements_[stindex])) == 0) {
try {
result.push_back(exchange->getLeaseData());
} catch (const isc::BadValue& ex) {
// Rethrow the exception with a bit more data.
isc_throw(BadValue, ex.what() << ". Statement is <" <<
text_statements_[stindex] << ">");
}
if (single && (++count > 1)) {
isc_throw(MultipleRecords, "multiple records were found in the "
"database where only one was expected for query "
<< text_statements_[stindex]);
}
}
// How did the fetch end?
if (status == 1) {
// Error - unable to fetch results
checkError(status, stindex, "unable to fetch results");
} else if (status == MYSQL_DATA_TRUNCATED) {
// Data truncated - throw an exception indicating what was at fault
isc_throw(DataTruncated, text_statements_[stindex]
<< " returned truncated data: columns affected are "
<< exchange->getErrorColumns());
}
}
void MySqlLeaseMgr::getLease(StatementIndex stindex, MYSQL_BIND* bind,
Lease4Ptr& result) const {
// Create appropriate collection object and get all leases matching
// the selection criteria. The "single" paraeter is true to indicate
// that the called method should throw an exception if multiple
// matching records are found: this particular method is called when only
// one or zero matches is expected.
Lease4Collection collection;
getLeaseCollection(stindex, bind, exchange4_, collection, true);
// Return single record if present, else clear the lease.
if (collection.empty()) {
result.reset();
} else {
result = *collection.begin();
}
}
void MySqlLeaseMgr::getLease(StatementIndex stindex, MYSQL_BIND* bind,
Lease6Ptr& result) const {
// Create appropriate collection object and get all leases matching
// the selection criteria. The "single" paraeter is true to indicate
// that the called method should throw an exception if multiple
// matching records are found: this particular method is called when only
// one or zero matches is expected.
Lease6Collection collection;
getLeaseCollection(stindex, bind, exchange6_, collection, true);
// Return single record if present, else clear the lease.
if (collection.empty()) {
result.reset();
} else {
result = *collection.begin();
}
}
// Basic lease access methods. Obtain leases from the database using various
// criteria.
Lease4Ptr
MySqlLeaseMgr::getLease4(const isc::asiolink::IOAddress& addr) const {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_GET_ADDR4).arg(addr.toText());
// Set up the WHERE clause value
MYSQL_BIND inbind[1];
memset(inbind, 0, sizeof(inbind));
uint32_t addr4 = static_cast<uint32_t>(addr);
inbind[0].buffer_type = MYSQL_TYPE_LONG;
inbind[0].buffer = reinterpret_cast<char*>(&addr4);
inbind[0].is_unsigned = MLM_TRUE;
// Get the data
Lease4Ptr result;
getLease(GET_LEASE4_ADDR, inbind, result);
return (result);
}
Lease4Collection
MySqlLeaseMgr::getLease4(const HWAddr& hwaddr) const {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_GET_HWADDR).arg(hwaddr.toText());
// Set up the WHERE clause value
MYSQL_BIND inbind[1];
memset(inbind, 0, sizeof(inbind));
// As "buffer" is "char*" - even though the data is being read - we need
// to cast away the "const"ness as well as reinterpreting the data as
// a "char*". (We could avoid the "const_cast" by copying the data to a
// local variable, but as the data is only being read, this introduces
// an unnecessary copy).
unsigned long hwaddr_length = hwaddr.hwaddr_.size();
uint8_t* data = const_cast<uint8_t*>(&hwaddr.hwaddr_[0]);
inbind[0].buffer_type = MYSQL_TYPE_BLOB;
inbind[0].buffer = reinterpret_cast<char*>(data);
inbind[0].buffer_length = hwaddr_length;
inbind[0].length = &hwaddr_length;
// Get the data
Lease4Collection result;
getLeaseCollection(GET_LEASE4_HWADDR, inbind, result);
return (result);
}
Lease4Ptr
MySqlLeaseMgr::getLease4(const HWAddr& hwaddr, SubnetID subnet_id) const {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_GET_SUBID_HWADDR)
.arg(subnet_id).arg(hwaddr.toText());
// Set up the WHERE clause value
MYSQL_BIND inbind[2];
memset(inbind, 0, sizeof(inbind));
// As "buffer" is "char*" - even though the data is being read - we need
// to cast away the "const"ness as well as reinterpreting the data as
// a "char*". (We could avoid the "const_cast" by copying the data to a
// local variable, but as the data is only being read, this introduces
// an unnecessary copy).
unsigned long hwaddr_length = hwaddr.hwaddr_.size();
uint8_t* data = const_cast<uint8_t*>(&hwaddr.hwaddr_[0]);
inbind[0].buffer_type = MYSQL_TYPE_BLOB;
inbind[0].buffer = reinterpret_cast<char*>(data);
inbind[0].buffer_length = hwaddr_length;
inbind[0].length = &hwaddr_length;
inbind[1].buffer_type = MYSQL_TYPE_LONG;
inbind[1].buffer = reinterpret_cast<char*>(&subnet_id);
inbind[1].is_unsigned = MLM_TRUE;
// Get the data
Lease4Ptr result;
getLease(GET_LEASE4_HWADDR_SUBID, inbind, result);
return (result);
}
Lease4Collection
MySqlLeaseMgr::getLease4(const ClientId& clientid) const {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_GET_CLIENTID).arg(clientid.toText());
// Set up the WHERE clause value
MYSQL_BIND inbind[1];
memset(inbind, 0, sizeof(inbind));
std::vector<uint8_t> client_data = clientid.getClientId();
unsigned long client_data_length = client_data.size();
inbind[0].buffer_type = MYSQL_TYPE_BLOB;
inbind[0].buffer = reinterpret_cast<char*>(&client_data[0]);
inbind[0].buffer_length = client_data_length;
inbind[0].length = &client_data_length;
// Get the data
Lease4Collection result;
getLeaseCollection(GET_LEASE4_CLIENTID, inbind, result);
return (result);
}
Lease4Ptr
MySqlLeaseMgr::getLease4(const ClientId&, const HWAddr&, SubnetID) const {
/// This function is currently not implemented because allocation engine
/// searches for the lease using HW address or client identifier.
/// It never uses both parameters in the same time. We need to
/// consider if this function is needed at all.
isc_throw(NotImplemented, "The MySqlLeaseMgr::getLease4 function was"
" called, but it is not implemented");
}
Lease4Ptr
MySqlLeaseMgr::getLease4(const ClientId& clientid, SubnetID subnet_id) const {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_GET_SUBID_CLIENTID)
.arg(subnet_id).arg(clientid.toText());
// Set up the WHERE clause value
MYSQL_BIND inbind[2];
memset(inbind, 0, sizeof(inbind));
std::vector<uint8_t> client_data = clientid.getClientId();
unsigned long client_data_length = client_data.size();
inbind[0].buffer_type = MYSQL_TYPE_BLOB;
inbind[0].buffer = reinterpret_cast<char*>(&client_data[0]);
inbind[0].buffer_length = client_data_length;
inbind[0].length = &client_data_length;
inbind[1].buffer_type = MYSQL_TYPE_LONG;
inbind[1].buffer = reinterpret_cast<char*>(&subnet_id);
inbind[1].is_unsigned = MLM_TRUE;
// Get the data
Lease4Ptr result;
getLease(GET_LEASE4_CLIENTID_SUBID, inbind, result);
return (result);
}
Lease6Ptr
MySqlLeaseMgr::getLease6(Lease::Type lease_type,
const isc::asiolink::IOAddress& addr) const {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_GET_ADDR6).arg(addr.toText())
.arg(lease_type);
// Set up the WHERE clause value
MYSQL_BIND inbind[2];
memset(inbind, 0, sizeof(inbind));
std::string addr6 = addr.toText();
unsigned long addr6_length = addr6.size();
// See the earlier description of the use of "const_cast" when accessing
// the address for an explanation of the reason.
inbind[0].buffer_type = MYSQL_TYPE_STRING;
inbind[0].buffer = const_cast<char*>(addr6.c_str());
inbind[0].buffer_length = addr6_length;
inbind[0].length = &addr6_length;
// LEASE_TYPE
inbind[1].buffer_type = MYSQL_TYPE_TINY;
inbind[1].buffer = reinterpret_cast<char*>(&lease_type);
inbind[1].is_unsigned = MLM_TRUE;
Lease6Ptr result;
getLease(GET_LEASE6_ADDR, inbind, result);
return (result);
}
Lease6Collection
MySqlLeaseMgr::getLeases6(Lease::Type lease_type,
const DUID& duid, uint32_t iaid) const {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_GET_IAID_DUID).arg(iaid).arg(duid.toText())
.arg(lease_type);
// Set up the WHERE clause value
MYSQL_BIND inbind[3];
memset(inbind, 0, sizeof(inbind));
// In the following statement, the DUID is being read. However, the
// MySQL C interface does not use "const", so the "buffer" element
// is declared as "char*" instead of "const char*". To resolve this,
// the "const" is discarded before the uint8_t* is cast to char*.
//
// Note that the const_cast could be avoided by copying the DUID to
// a writeable buffer and storing the address of that in the "buffer"
// element. However, this introduces a copy operation (with additional
// overhead) purely to get round the structures introduced by design of
// the MySQL interface (which uses the area pointed to by "buffer" as
// input when specifying query parameters and as output when retrieving
// data). For that reason, "const_cast" has been used.
const vector<uint8_t>& duid_vector = duid.getDuid();
unsigned long duid_length = duid_vector.size();
inbind[0].buffer_type = MYSQL_TYPE_BLOB;
inbind[0].buffer = reinterpret_cast<char*>(
const_cast<uint8_t*>(&duid_vector[0]));
inbind[0].buffer_length = duid_length;
inbind[0].length = &duid_length;
// IAID
inbind[1].buffer_type = MYSQL_TYPE_LONG;
inbind[1].buffer = reinterpret_cast<char*>(&iaid);
inbind[1].is_unsigned = MLM_TRUE;
// LEASE_TYPE
inbind[2].buffer_type = MYSQL_TYPE_TINY;
inbind[2].buffer = reinterpret_cast<char*>(&lease_type);
inbind[2].is_unsigned = MLM_TRUE;
// ... and get the data
Lease6Collection result;
getLeaseCollection(GET_LEASE6_DUID_IAID, inbind, result);
return (result);
}
Lease6Collection
MySqlLeaseMgr::getLeases6(Lease::Type lease_type,
const DUID& duid, uint32_t iaid,
SubnetID subnet_id) const {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_GET_IAID_SUBID_DUID)
.arg(iaid).arg(subnet_id).arg(duid.toText())
.arg(lease_type);
// Set up the WHERE clause value
MYSQL_BIND inbind[4];
memset(inbind, 0, sizeof(inbind));
// See the earlier description of the use of "const_cast" when accessing
// the DUID for an explanation of the reason.
const vector<uint8_t>& duid_vector = duid.getDuid();
unsigned long duid_length = duid_vector.size();
inbind[0].buffer_type = MYSQL_TYPE_BLOB;
inbind[0].buffer = reinterpret_cast<char*>(
const_cast<uint8_t*>(&duid_vector[0]));
inbind[0].buffer_length = duid_length;
inbind[0].length = &duid_length;
// IAID
inbind[1].buffer_type = MYSQL_TYPE_LONG;
inbind[1].buffer = reinterpret_cast<char*>(&iaid);
inbind[1].is_unsigned = MLM_TRUE;
// Subnet ID
inbind[2].buffer_type = MYSQL_TYPE_LONG;
inbind[2].buffer = reinterpret_cast<char*>(&subnet_id);
inbind[2].is_unsigned = MLM_TRUE;
// LEASE_TYPE
inbind[3].buffer_type = MYSQL_TYPE_TINY;
inbind[3].buffer = reinterpret_cast<char*>(&lease_type);
inbind[3].is_unsigned = MLM_TRUE;
// ... and get the data
Lease6Collection result;
getLeaseCollection(GET_LEASE6_DUID_IAID_SUBID, inbind, result);
return (result);
}
// Update lease methods. These comprise common code that handles the actual
// update, and type-specific methods that set up the parameters for the prepared
// statement depending on the type of lease.
template <typename LeasePtr>
void
MySqlLeaseMgr::updateLeaseCommon(StatementIndex stindex, MYSQL_BIND* bind,
const LeasePtr& lease) {
// Bind the parameters to the statement
int status = mysql_stmt_bind_param(statements_[stindex], bind);
checkError(status, stindex, "unable to bind parameters");
// Execute
status = mysql_stmt_execute(statements_[stindex]);
checkError(status, stindex, "unable to execute");
// See how many rows were affected. The statement should only update a
// single row.
int affected_rows = mysql_stmt_affected_rows(statements_[stindex]);
if (affected_rows == 0) {
isc_throw(NoSuchLease, "unable to update lease for address " <<
lease->addr_ << " as it does not exist");
} else if (affected_rows > 1) {
// Should not happen - primary key constraint should only have selected
// one row.
isc_throw(DbOperationError, "apparently updated more than one lease "
"that had the address " << lease->addr_);
}
}
void
MySqlLeaseMgr::updateLease4(const Lease4Ptr& lease) {
const StatementIndex stindex = UPDATE_LEASE4;
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_UPDATE_ADDR4).arg(lease->addr_.toText());
// Create the MYSQL_BIND array for the data being updated
std::vector<MYSQL_BIND> bind = exchange4_->createBindForSend(lease);
// Set up the WHERE clause and append it to the MYSQL_BIND array
MYSQL_BIND where;
memset(&where, 0, sizeof(where));
uint32_t addr4 = static_cast<uint32_t>(lease->addr_);
where.buffer_type = MYSQL_TYPE_LONG;
where.buffer = reinterpret_cast<char*>(&addr4);
where.is_unsigned = MLM_TRUE;
bind.push_back(where);
// Drop to common update code
updateLeaseCommon(stindex, &bind[0], lease);
}
void
MySqlLeaseMgr::updateLease6(const Lease6Ptr& lease) {
const StatementIndex stindex = UPDATE_LEASE6;
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_UPDATE_ADDR6).arg(lease->addr_.toText())
.arg(lease->type_);
// Create the MYSQL_BIND array for the data being updated
std::vector<MYSQL_BIND> bind = exchange6_->createBindForSend(lease);
// Set up the WHERE clause value
MYSQL_BIND where;
memset(&where, 0, sizeof(where));
std::string addr6 = lease->addr_.toText();
unsigned long addr6_length = addr6.size();
// See the earlier description of the use of "const_cast" when accessing
// the address for an explanation of the reason.
where.buffer_type = MYSQL_TYPE_STRING;
where.buffer = const_cast<char*>(addr6.c_str());
where.buffer_length = addr6_length;
where.length = &addr6_length;
bind.push_back(where);
// Drop to common update code
updateLeaseCommon(stindex, &bind[0], lease);
}
// Delete lease methods. Similar to other groups of methods, these comprise
// a per-type method that sets up the relevant MYSQL_BIND array (in this
// case, a single method for both V4 and V6 addresses) and a common method that
// handles the common processing.
bool
MySqlLeaseMgr::deleteLeaseCommon(StatementIndex stindex, MYSQL_BIND* bind) {
// Bind the input parameters to the statement
int status = mysql_stmt_bind_param(statements_[stindex], bind);
checkError(status, stindex, "unable to bind WHERE clause parameter");
// Execute
status = mysql_stmt_execute(statements_[stindex]);
checkError(status, stindex, "unable to execute");
// See how many rows were affected. Note that the statement may delete
// multiple rows.
return (mysql_stmt_affected_rows(statements_[stindex]) > 0);
}
bool
MySqlLeaseMgr::deleteLease(const isc::asiolink::IOAddress& addr) {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_DELETE_ADDR).arg(addr.toText());
// Set up the WHERE clause value
MYSQL_BIND inbind[1];
memset(inbind, 0, sizeof(inbind));
if (addr.isV4()) {
uint32_t addr4 = static_cast<uint32_t>(addr);
inbind[0].buffer_type = MYSQL_TYPE_LONG;
inbind[0].buffer = reinterpret_cast<char*>(&addr4);
inbind[0].is_unsigned = MLM_TRUE;
return (deleteLeaseCommon(DELETE_LEASE4, inbind));
} else {
std::string addr6 = addr.toText();
unsigned long addr6_length = addr6.size();
// See the earlier description of the use of "const_cast" when accessing
// the address for an explanation of the reason.
inbind[0].buffer_type = MYSQL_TYPE_STRING;
inbind[0].buffer = const_cast<char*>(addr6.c_str());
inbind[0].buffer_length = addr6_length;
inbind[0].length = &addr6_length;
return (deleteLeaseCommon(DELETE_LEASE6, inbind));
}
}
// Miscellaneous database methods.
std::string
MySqlLeaseMgr::getName() const {
std::string name = "";
try {
name = getParameter("name");
} catch (...) {
// Return an empty name
}
return (name);
}
std::string
MySqlLeaseMgr::getDescription() const {
return (std::string("MySQL Database"));
}
std::pair<uint32_t, uint32_t>
MySqlLeaseMgr::getVersion() const {
const StatementIndex stindex = GET_VERSION;
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_MYSQL_GET_VERSION);
uint32_t major; // Major version number
uint32_t minor; // Minor version number
// Execute the prepared statement
int status = mysql_stmt_execute(statements_[stindex]);
if (status != 0) {
isc_throw(DbOperationError, "unable to execute <"
<< text_statements_[stindex] << "> - reason: " <<
mysql_error(mysql_));
}
// Bind the output of the statement to the appropriate variables.
MYSQL_BIND bind[2];
memset(bind, 0, sizeof(bind));
bind[0].buffer_type = MYSQL_TYPE_LONG;
bind[0].is_unsigned = 1;
bind[0].buffer = &major;
bind[0].buffer_length = sizeof(major);
bind[1].buffer_type = MYSQL_TYPE_LONG;
bind[1].is_unsigned = 1;
bind[1].buffer = &minor;
bind[1].buffer_length = sizeof(minor);
status = mysql_stmt_bind_result(statements_[stindex], bind);
if (status != 0) {
isc_throw(DbOperationError, "unable to bind result set: " <<
mysql_error(mysql_));
}
// Fetch the data and set up the "release" object to release associated
// resources when this method exits then retrieve the data.
MySqlFreeResult fetch_release(statements_[stindex]);
status = mysql_stmt_fetch(statements_[stindex]);
if (status != 0) {
isc_throw(DbOperationError, "unable to obtain result set: " <<
mysql_error(mysql_));
}
return (std::make_pair(major, minor));
}
void
MySqlLeaseMgr::commit() {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL, DHCPSRV_MYSQL_COMMIT);
if (mysql_commit(mysql_) != 0) {
isc_throw(DbOperationError, "commit failed: " << mysql_error(mysql_));
}
}
void
MySqlLeaseMgr::rollback() {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL, DHCPSRV_MYSQL_ROLLBACK);
if (mysql_rollback(mysql_) != 0) {
isc_throw(DbOperationError, "rollback failed: " << mysql_error(mysql_));
}
}
}; // end of isc::dhcp namespace
}; // end of isc namespace
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